When we subtract a pointer from another the diffrence is not equal to how many bytes they are apart but equal to how many integers(if pointing to integers) they are apart.Why so?

The idea is that you're pointing to blocks of memory
If you have So if you have When dealing with raw memory (arrays, lists, maps, etc) draw lots of boxes! It really helps! 


Because everything in pointerland is about offsets. When you say:
What you're actually saying in the second line is:
Literally translated as:
And if we can add 7 to make the offset point to the right place, we need to be able to have the opposite in place, otherwise we don't have symmetry in our math. If:
Then, for sanity and symmetry:



So that the answer is the same even on platforms where integers are different lengths. 


Say you have an array of 10 integers:
Then you take a pointer to intArray:
Then you increment
What you would expect, because 


When applying arithmetic operations on pointers of a specific type, you always want the resulting pointer to point to a "valid" (meaning the right step size) memoryaddress relative to the original startingpoint. That is a very comfortable way of accessing data in memory independently from the underlying architecture. If you want to use a different "stepsize" you can always cast the pointer to the desired type:



"When you subtract two pointers, as long as they point into the same array, the result is the number of elements separating them" Check for more here. 


@fahad Pointer arithmetic goes by the size of the datatype it points.So when ur pointer is of type int you should expect pointer arithmetic in the size of int(4 bytes).Likewise for a char pointer all operations on the pointer will be in terms of 1 byte. 

